Literature DB >> 33558520

Structural basis for the biosynthesis of lovastatin.

Jialiang Wang1, Jingdan Liang1, Lu Chen1, Wei Zhang1, Liangliang Kong2, Chao Peng2, Chen Su2, Yi Tang3, Zixin Deng4, Zhijun Wang5.   

Abstract

Statins are effective cholesterol-lowering drugs. Lovastatin, one of the precursors of statins, is formed from dihydromonacolin L (DML), which is synthesized by lovastatin nonaketide synthase (LovB), with the assistance of a separate trans-acting enoyl reductase (LovC). A full DML synthesis comprises 8 polyketide synthetic cycles with about 35 steps. The assembling of the LovB-LovC complex, and the structural basis for the iterative and yet permutative functions of the megasynthase have remained a mystery. Here, we present the cryo-EM structures of the LovB-LovC complex at 3.60 Å and the core LovB at 2.91 Å resolution. The domain organization of LovB is an X-shaped face-to-face dimer containing eight connected domains. The binding of LovC laterally to the malonyl-acetyl transferase domain allows the completion of a L-shaped catalytic chamber consisting of six active domains. This architecture and the structural details of the megasynthase provide the basis for the processing of the intermediates by the individual catalytic domains. The detailed architectural model provides structural insights that may enable the re-engineering of the megasynthase for the generation of new statins.

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Year:  2021        PMID: 33558520      PMCID: PMC7870829          DOI: 10.1038/s41467-021-21174-8

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  44 in total

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1.  Mapping the catalytic conformations of an assembly-line polyketide synthase module.

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2.  Priming enzymes from the pikromycin synthase reveal how assembly-line ketosynthases catalyze carbon-carbon chemistry.

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6.  Solution Structure and Conformational Flexibility of a Polyketide Synthase Module.

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  10 in total

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